---
title: Loop Control
description: Control agent execution with built-in loop management using stopWhen and prepareStep
---

# Loop Control

You can control both the execution flow and the settings at each step of the agent loop. The loop continues until:

- A finish reasoning other than tool-calls is returned, or
- A tool that is invoked does not have an execute function, or
- A tool call needs approval, or
- A stop condition is met

The AI SDK provides built-in loop control through two parameters: `stopWhen` for defining stopping conditions and `prepareStep` for modifying settings (model, tools, messages, and more) between steps.

## Stop Conditions

The `stopWhen` parameter controls when to stop execution when there are tool results in the last step. By default, agents stop after 20 steps using `stepCountIs(20)`.

When you provide `stopWhen`, the agent continues executing after tool calls until a stopping condition is met. When the condition is an array, execution stops when any of the conditions are met.

### Use Built-in Conditions

The AI SDK provides several built-in stopping conditions:

```ts
import { ToolLoopAgent, stepCountIs } from 'ai';
__PROVIDER_IMPORT__;

const agent = new ToolLoopAgent({
  model: __MODEL__,
  tools: {
    // your tools
  },
  stopWhen: stepCountIs(20), // Default state: stop after 20 steps maximum
});

const result = await agent.generate({
  prompt: 'Analyze this dataset and create a summary report',
});
```

### Combine Multiple Conditions

Combine multiple stopping conditions. The loop stops when it meets any condition:

```ts
import { ToolLoopAgent, stepCountIs, hasToolCall } from 'ai';
__PROVIDER_IMPORT__;

const agent = new ToolLoopAgent({
  model: __MODEL__,
  tools: {
    // your tools
  },
  stopWhen: [
    stepCountIs(20), // Maximum 20 steps
    hasToolCall('someTool'), // Stop after calling 'someTool'
  ],
});

const result = await agent.generate({
  prompt: 'Research and analyze the topic',
});
```

### Create Custom Conditions

Build custom stopping conditions for specific requirements:

```ts
import { ToolLoopAgent, StopCondition, ToolSet } from 'ai';
__PROVIDER_IMPORT__;

const tools = {
  // your tools
} satisfies ToolSet;

const hasAnswer: StopCondition<typeof tools> = ({ steps }) => {
  // Stop when the model generates text containing "ANSWER:"
  return steps.some(step => step.text?.includes('ANSWER:')) ?? false;
};

const agent = new ToolLoopAgent({
  model: __MODEL__,
  tools,
  stopWhen: hasAnswer,
});

const result = await agent.generate({
  prompt: 'Find the answer and respond with "ANSWER: [your answer]"',
});
```

Custom conditions receive step information across all steps:

```ts
const budgetExceeded: StopCondition<typeof tools> = ({ steps }) => {
  const totalUsage = steps.reduce(
    (acc, step) => ({
      inputTokens: acc.inputTokens + (step.usage?.inputTokens ?? 0),
      outputTokens: acc.outputTokens + (step.usage?.outputTokens ?? 0),
    }),
    { inputTokens: 0, outputTokens: 0 },
  );

  const costEstimate =
    (totalUsage.inputTokens * 0.01 + totalUsage.outputTokens * 0.03) / 1000;
  return costEstimate > 0.5; // Stop if cost exceeds $0.50
};
```

## Prepare Step

The `prepareStep` callback runs before each step in the loop and defaults to the initial settings if you don't return any changes. Use it to modify settings, manage context, or implement dynamic behavior based on execution history.

### Dynamic Model Selection

Switch models based on step requirements:

```ts
import { ToolLoopAgent } from 'ai';
__PROVIDER_IMPORT__;

const agent = new ToolLoopAgent({
  model: 'openai/gpt-4o-mini', // Default model
  tools: {
    // your tools
  },
  prepareStep: async ({ stepNumber, messages }) => {
    // Use a stronger model for complex reasoning after initial steps
    if (stepNumber > 2 && messages.length > 10) {
      return {
        model: __MODEL__,
      };
    }
    // Continue with default settings
    return {};
  },
});

const result = await agent.generate({
  prompt: '...',
});
```

### Context Management

Manage growing conversation history in long-running loops:

```ts
import { ToolLoopAgent } from 'ai';
__PROVIDER_IMPORT__;

const agent = new ToolLoopAgent({
  model: __MODEL__,
  tools: {
    // your tools
  },
  prepareStep: async ({ messages }) => {
    // Keep only recent messages to stay within context limits
    if (messages.length > 20) {
      return {
        messages: [
          messages[0], // Keep system instructions
          ...messages.slice(-10), // Keep last 10 messages
        ],
      };
    }
    return {};
  },
});

const result = await agent.generate({
  prompt: '...',
});
```

### Tool Selection

Control which tools are available at each step:

```ts
import { ToolLoopAgent } from 'ai';
__PROVIDER_IMPORT__;

const agent = new ToolLoopAgent({
  model: __MODEL__,
  tools: {
    search: searchTool,
    analyze: analyzeTool,
    summarize: summarizeTool,
  },
  prepareStep: async ({ stepNumber, steps }) => {
    // Search phase (steps 0-2)
    if (stepNumber <= 2) {
      return {
        activeTools: ['search'],
        toolChoice: 'required',
      };
    }

    // Analysis phase (steps 3-5)
    if (stepNumber <= 5) {
      return {
        activeTools: ['analyze'],
      };
    }

    // Summary phase (step 6+)
    return {
      activeTools: ['summarize'],
      toolChoice: 'required',
    };
  },
});

const result = await agent.generate({
  prompt: '...',
});
```

You can also force a specific tool to be used:

```ts
prepareStep: async ({ stepNumber }) => {
  if (stepNumber === 0) {
    // Force the search tool to be used first
    return {
      toolChoice: { type: 'tool', toolName: 'search' },
    };
  }

  if (stepNumber === 5) {
    // Force the summarize tool after analysis
    return {
      toolChoice: { type: 'tool', toolName: 'summarize' },
    };
  }

  return {};
};
```

### Message Modification

Transform messages before sending them to the model:

```ts
import { ToolLoopAgent } from 'ai';
__PROVIDER_IMPORT__;

const agent = new ToolLoopAgent({
  model: __MODEL__,
  tools: {
    // your tools
  },
  prepareStep: async ({ messages, stepNumber }) => {
    // Summarize tool results to reduce token usage
    const processedMessages = messages.map(msg => {
      if (msg.role === 'tool' && msg.content.length > 1000) {
        return {
          ...msg,
          content: summarizeToolResult(msg.content),
        };
      }
      return msg;
    });

    return { messages: processedMessages };
  },
});

const result = await agent.generate({
  prompt: '...',
});
```

## Access Step Information

Both `stopWhen` and `prepareStep` receive detailed information about the current execution:

```ts
prepareStep: async ({
  model, // Current model configuration
  stepNumber, // Current step number (0-indexed)
  steps, // All previous steps with their results
  messages, // Messages to be sent to the model
}) => {
  // Access previous tool calls and results
  const previousToolCalls = steps.flatMap(step => step.toolCalls);
  const previousResults = steps.flatMap(step => step.toolResults);

  // Make decisions based on execution history
  if (previousToolCalls.some(call => call.toolName === 'dataAnalysis')) {
    return {
      toolChoice: { type: 'tool', toolName: 'reportGenerator' },
    };
  }

  return {};
},
```

## Manual Loop Control

For scenarios requiring complete control over the agent loop, you can use AI SDK Core functions (`generateText` and `streamText`) to implement your own loop management instead of using `stopWhen` and `prepareStep`. This approach provides maximum flexibility for complex workflows.

### Implementing a Manual Loop

Build your own agent loop when you need full control over execution:

```ts
import { generateText, ModelMessage } from 'ai';
__PROVIDER_IMPORT__;

const messages: ModelMessage[] = [{ role: 'user', content: '...' }];

let step = 0;
const maxSteps = 10;

while (step < maxSteps) {
  const result = await generateText({
    model: __MODEL__,
    messages,
    tools: {
      // your tools here
    },
  });

  messages.push(...result.response.messages);

  if (result.text) {
    break; // Stop when model generates text
  }

  step++;
}
```

This manual approach gives you complete control over:

- Message history management
- Step-by-step decision making
- Custom stopping conditions
- Dynamic tool and model selection
- Error handling and recovery

[Learn more about manual agent loops in the cookbook](/cookbook/node/manual-agent-loop).
